DiffPD: Differentiable Projective Dynamics

Author(s)
Du, TaoWu, KuiMa, PingchuanWah, SebastienSpielberg, Andrew; ... Show more
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Abstract
<jats:p> We present a novel, fast differentiable simulator for soft-body learning and control applications. Existing differentiable soft-body simulators can be classified into two categories based on their time integration methods: Simulators using explicit timestepping schemes require tiny timesteps to avoid numerical instabilities in gradient computation, and simulators using implicit time integration typically compute gradients by employing the adjoint method and solving the expensive linearized dynamics. Inspired by <jats:bold>Projective Dynamics</jats:bold> ( <jats:bold>PD</jats:bold> ), we present <jats:bold>Differentiable Projective Dynamics</jats:bold> ( <jats:bold>DiffPD</jats:bold> ), an efficient differentiable soft-body simulator based on PD with implicit time integration. The key idea in DiffPD is to speed up backpropagation by exploiting the prefactorized Cholesky decomposition in forward PD simulation. In terms of contact handling, DiffPD supports two types of contacts: a penalty-based model describing contact and friction forces and a complementarity-based model enforcing non-penetration conditions and static friction. We evaluate the performance of DiffPD and observe it is 4–19 times faster compared with the standard Newton’s method in various applications including system identification, inverse design problems, trajectory optimization, and closed-loop control. We also apply DiffPD in a <jats:bold>reality-to-simulation</jats:bold> ( <jats:bold>real-to-sim</jats:bold> ) example with contact and collisions and show its capability of reconstructing a digital twin of real-world scenes. </jats:p>
Date issued
2022
URI
https://hdl.handle.net/1721.1/143798
Department
Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory
Journal
ACM Transactions on Graphics
Publisher
Association for Computing Machinery (ACM)
Citation
Du, Tao, Wu, Kui, Ma, Pingchuan, Wah, Sebastien, Spielberg, Andrew et al. 2022. "DiffPD: Differentiable Projective Dynamics." ACM Transactions on Graphics, 41 (2).
Version: Final published version
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